xref: /freebsd/contrib/kyua/store/write_transaction.cpp (revision 7fdf597e96a02165cfe22ff357b857d5fa15ed8a)
1 // Copyright 2011 The Kyua Authors.
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28 
29 #include "store/write_transaction.hpp"
30 
31 extern "C" {
32 #include <stdint.h>
33 }
34 
35 #include <fstream>
36 #include <map>
37 
38 #include "model/context.hpp"
39 #include "model/metadata.hpp"
40 #include "model/test_case.hpp"
41 #include "model/test_program.hpp"
42 #include "model/test_result.hpp"
43 #include "model/types.hpp"
44 #include "store/dbtypes.hpp"
45 #include "store/exceptions.hpp"
46 #include "store/write_backend.hpp"
47 #include "utils/datetime.hpp"
48 #include "utils/format/macros.hpp"
49 #include "utils/fs/path.hpp"
50 #include "utils/logging/macros.hpp"
51 #include "utils/noncopyable.hpp"
52 #include "utils/optional.ipp"
53 #include "utils/sanity.hpp"
54 #include "utils/stream.hpp"
55 #include "utils/sqlite/database.hpp"
56 #include "utils/sqlite/exceptions.hpp"
57 #include "utils/sqlite/statement.ipp"
58 #include "utils/sqlite/transaction.hpp"
59 
60 namespace datetime = utils::datetime;
61 namespace fs = utils::fs;
62 namespace sqlite = utils::sqlite;
63 
64 using utils::none;
65 using utils::optional;
66 
67 
68 namespace {
69 
70 
71 /// Stores the environment variables of a context.
72 ///
73 /// \param db The SQLite database.
74 /// \param env The environment variables to store.
75 ///
76 /// \throw sqlite::error If there is a problem storing the variables.
77 static void
78 put_env_vars(sqlite::database& db,
79              const std::map< std::string, std::string >& env)
80 {
81     sqlite::statement stmt = db.create_statement(
82         "INSERT INTO env_vars (var_name, var_value) "
83         "VALUES (:var_name, :var_value)");
84     for (std::map< std::string, std::string >::const_iterator iter =
85              env.begin(); iter != env.end(); iter++) {
86         stmt.bind(":var_name", (*iter).first);
87         stmt.bind(":var_value", (*iter).second);
88         stmt.step_without_results();
89         stmt.reset();
90     }
91 }
92 
93 
94 /// Calculates the last rowid of a table.
95 ///
96 /// \param db The SQLite database.
97 /// \param table Name of the table.
98 ///
99 /// \return The last rowid; 0 if the table is empty.
100 static int64_t
101 last_rowid(sqlite::database& db, const std::string& table)
102 {
103     sqlite::statement stmt = db.create_statement(
104         F("SELECT MAX(ROWID) AS max_rowid FROM %s") % table);
105     stmt.step();
106     if (stmt.column_type(0) == sqlite::type_null) {
107         return 0;
108     } else {
109         INV(stmt.column_type(0) == sqlite::type_integer);
110         return stmt.column_int64(0);
111     }
112 }
113 
114 
115 /// Stores a metadata object.
116 ///
117 /// \param db The database into which to store the information.
118 /// \param md The metadata to store.
119 ///
120 /// \return The identifier of the new metadata object.
121 static int64_t
122 put_metadata(sqlite::database& db, const model::metadata& md)
123 {
124     const model::properties_map props = md.to_properties();
125 
126     const int64_t metadata_id = last_rowid(db, "metadatas");
127 
128     sqlite::statement stmt = db.create_statement(
129         "INSERT INTO metadatas (metadata_id, property_name, property_value) "
130         "VALUES (:metadata_id, :property_name, :property_value)");
131     stmt.bind(":metadata_id", metadata_id);
132 
133     for (model::properties_map::const_iterator iter = props.begin();
134          iter != props.end(); ++iter) {
135         stmt.bind(":property_name", (*iter).first);
136         stmt.bind(":property_value", (*iter).second);
137         stmt.step_without_results();
138         stmt.reset();
139     }
140 
141     return metadata_id;
142 }
143 
144 
145 /// Stores an arbitrary file into the database as a BLOB.
146 ///
147 /// \param db The database into which to store the file.
148 /// \param path Path to the file to be stored.
149 ///
150 /// \return The identifier of the stored file, or none if the file was empty.
151 ///
152 /// \throw sqlite::error If there are problems writing to the database.
153 static optional< int64_t >
154 put_file(sqlite::database& db, const fs::path& path)
155 {
156     std::ifstream input(path.c_str());
157     if (!input)
158         throw store::error(F("Cannot open file %s") % path);
159 
160     try {
161         if (utils::stream_length(input) == 0)
162             return none;
163     } catch (const std::runtime_error& e) {
164         // Skipping empty files is an optimization.  If we fail to calculate the
165         // size of the file, just ignore the problem.  If there are real issues
166         // with the file, the read below will fail anyway.
167         LD(F("Cannot determine if file is empty: %s") % e.what());
168     }
169 
170     // TODO(jmmv): This will probably cause an unreasonable amount of memory
171     // consumption if we decide to store arbitrary files in the database (other
172     // than stdout or stderr).  Should this happen, we need to investigate a
173     // better way to feel blobs into SQLite.
174     const std::string contents = utils::read_stream(input);
175 
176     sqlite::statement stmt = db.create_statement(
177         "INSERT INTO files (contents) VALUES (:contents)");
178     stmt.bind(":contents", sqlite::blob(contents.c_str(), contents.length()));
179     stmt.step_without_results();
180 
181     return optional< int64_t >(db.last_insert_rowid());
182 }
183 
184 
185 }  // anonymous namespace
186 
187 
188 /// Internal implementation for a store write-only transaction.
189 struct store::write_transaction::impl : utils::noncopyable {
190     /// The backend instance.
191     store::write_backend& _backend;
192 
193     /// The SQLite database this transaction deals with.
194     sqlite::database _db;
195 
196     /// The backing SQLite transaction.
197     sqlite::transaction _tx;
198 
199     /// Opens a transaction.
200     ///
201     /// \param backend_ The backend this transaction is connected to.
202     impl(write_backend& backend_) :
203         _backend(backend_),
204         _db(backend_.database()),
205         _tx(backend_.database().begin_transaction())
206     {
207     }
208 };
209 
210 
211 /// Creates a new write-only transaction.
212 ///
213 /// \param backend_ The backend this transaction belongs to.
214 store::write_transaction::write_transaction(write_backend& backend_) :
215     _pimpl(new impl(backend_))
216 {
217 }
218 
219 
220 /// Destructor.
221 store::write_transaction::~write_transaction(void)
222 {
223 }
224 
225 
226 /// Commits the transaction.
227 ///
228 /// \throw error If there is any problem when talking to the database.
229 void
230 store::write_transaction::commit(void)
231 {
232     try {
233         _pimpl->_tx.commit();
234     } catch (const sqlite::error& e) {
235         throw error(e.what());
236     }
237 }
238 
239 
240 /// Rolls the transaction back.
241 ///
242 /// \throw error If there is any problem when talking to the database.
243 void
244 store::write_transaction::rollback(void)
245 {
246     try {
247         _pimpl->_tx.rollback();
248     } catch (const sqlite::error& e) {
249         throw error(e.what());
250     }
251 }
252 
253 
254 /// Puts a context into the database.
255 ///
256 /// \pre The context has not been put yet.
257 /// \post The context is stored into the database with a new identifier.
258 ///
259 /// \param context The context to put.
260 ///
261 /// \throw error If there is any problem when talking to the database.
262 void
263 store::write_transaction::put_context(const model::context& context)
264 {
265     try {
266         sqlite::statement stmt = _pimpl->_db.create_statement(
267             "INSERT INTO contexts (cwd) VALUES (:cwd)");
268         stmt.bind(":cwd", context.cwd().str());
269         stmt.step_without_results();
270 
271         put_env_vars(_pimpl->_db, context.env());
272     } catch (const sqlite::error& e) {
273         throw error(e.what());
274     }
275 }
276 
277 
278 /// Puts a test program into the database.
279 ///
280 /// \pre The test program has not been put yet.
281 /// \post The test program is stored into the database with a new identifier.
282 ///
283 /// \param test_program The test program to put.
284 ///
285 /// \return The identifier of the inserted test program.
286 ///
287 /// \throw error If there is any problem when talking to the database.
288 int64_t
289 store::write_transaction::put_test_program(
290     const model::test_program& test_program)
291 {
292     try {
293         const int64_t metadata_id = put_metadata(
294             _pimpl->_db, test_program.get_metadata());
295 
296         sqlite::statement stmt = _pimpl->_db.create_statement(
297             "INSERT INTO test_programs (absolute_path, "
298             "                           root, relative_path, test_suite_name, "
299             "                           metadata_id, interface) "
300             "VALUES (:absolute_path, :root, :relative_path, "
301             "        :test_suite_name, :metadata_id, :interface)");
302         stmt.bind(":absolute_path", test_program.absolute_path().str());
303         // TODO(jmmv): The root is not necessarily absolute.  We need to ensure
304         // that we can recover the absolute path of the test program.  Maybe we
305         // need to change the test_program to always ensure root is absolute?
306         stmt.bind(":root", test_program.root().str());
307         stmt.bind(":relative_path", test_program.relative_path().str());
308         stmt.bind(":test_suite_name", test_program.test_suite_name());
309         stmt.bind(":metadata_id", metadata_id);
310         stmt.bind(":interface", test_program.interface_name());
311         stmt.step_without_results();
312         return _pimpl->_db.last_insert_rowid();
313     } catch (const sqlite::error& e) {
314         throw error(e.what());
315     }
316 }
317 
318 
319 /// Puts a test case into the database.
320 ///
321 /// \pre The test case has not been put yet.
322 /// \post The test case is stored into the database with a new identifier.
323 ///
324 /// \param test_program The program containing the test case to be stored.
325 /// \param test_case_name The name of the test case to put.
326 /// \param test_program_id The test program this test case belongs to.
327 ///
328 /// \return The identifier of the inserted test case.
329 ///
330 /// \throw error If there is any problem when talking to the database.
331 int64_t
332 store::write_transaction::put_test_case(const model::test_program& test_program,
333                                         const std::string& test_case_name,
334                                         const int64_t test_program_id)
335 {
336     const model::test_case& test_case = test_program.find(test_case_name);
337 
338     try {
339         const int64_t metadata_id = put_metadata(
340             _pimpl->_db, test_case.get_raw_metadata());
341 
342         sqlite::statement stmt = _pimpl->_db.create_statement(
343             "INSERT INTO test_cases (test_program_id, name, metadata_id) "
344             "VALUES (:test_program_id, :name, :metadata_id)");
345         stmt.bind(":test_program_id", test_program_id);
346         stmt.bind(":name", test_case.name());
347         stmt.bind(":metadata_id", metadata_id);
348         stmt.step_without_results();
349         return _pimpl->_db.last_insert_rowid();
350     } catch (const sqlite::error& e) {
351         throw error(e.what());
352     }
353 }
354 
355 
356 /// Stores a file generated by a test case into the database as a BLOB.
357 ///
358 /// \param name The name of the file to store in the database.  This needs to be
359 ///     unique per test case.  The caller is free to decide what names to use
360 ///     for which files.  For example, it might make sense to always call
361 ///     __STDOUT__ the stdout of the test case so that it is easy to locate.
362 /// \param path The path to the file to be stored.
363 /// \param test_case_id The identifier of the test case this file belongs to.
364 ///
365 /// \return The identifier of the stored file, or none if the file was empty.
366 ///
367 /// \throw store::error If there are problems writing to the database.
368 optional< int64_t >
369 store::write_transaction::put_test_case_file(const std::string& name,
370                                              const fs::path& path,
371                                              const int64_t test_case_id)
372 {
373     LD(F("Storing %s (%s) of test case %s") % name % path % test_case_id);
374     try {
375         const optional< int64_t > file_id = put_file(_pimpl->_db, path);
376         if (!file_id) {
377             LD("Not storing empty file");
378             return none;
379         }
380 
381         sqlite::statement stmt = _pimpl->_db.create_statement(
382             "INSERT INTO test_case_files (test_case_id, file_name, file_id) "
383             "VALUES (:test_case_id, :file_name, :file_id)");
384         stmt.bind(":test_case_id", test_case_id);
385         stmt.bind(":file_name", name);
386         stmt.bind(":file_id", file_id.get());
387         stmt.step_without_results();
388 
389         return optional< int64_t >(_pimpl->_db.last_insert_rowid());
390     } catch (const sqlite::error& e) {
391         throw error(e.what());
392     }
393 }
394 
395 
396 /// Puts a result into the database.
397 ///
398 /// \pre The result has not been put yet.
399 /// \post The result is stored into the database with a new identifier.
400 ///
401 /// \param result The result to put.
402 /// \param test_case_id The test case this result corresponds to.
403 /// \param start_time The time when the test started to run.
404 /// \param end_time The time when the test finished running.
405 ///
406 /// \return The identifier of the inserted result.
407 ///
408 /// \throw error If there is any problem when talking to the database.
409 int64_t
410 store::write_transaction::put_result(const model::test_result& result,
411                                      const int64_t test_case_id,
412                                      const datetime::timestamp& start_time,
413                                      const datetime::timestamp& end_time)
414 {
415     try {
416         sqlite::statement stmt = _pimpl->_db.create_statement(
417             "INSERT INTO test_results (test_case_id, result_type, "
418             "                          result_reason, start_time, "
419             "                          end_time) "
420             "VALUES (:test_case_id, :result_type, :result_reason, "
421             "        :start_time, :end_time)");
422         stmt.bind(":test_case_id", test_case_id);
423 
424         store::bind_test_result_type(stmt, ":result_type", result.type());
425         if (result.reason().empty())
426             stmt.bind(":result_reason", sqlite::null());
427         else
428             stmt.bind(":result_reason", result.reason());
429 
430         store::bind_timestamp(stmt, ":start_time", start_time);
431         store::bind_timestamp(stmt, ":end_time", end_time);
432 
433         stmt.step_without_results();
434         const int64_t result_id = _pimpl->_db.last_insert_rowid();
435 
436         return result_id;
437     } catch (const sqlite::error& e) {
438         throw error(e.what());
439     }
440 }
441